摘要近年来，对四旋翼无人飞行器的研究成为新的研究热点。本文介绍了自主四旋翼自主飞行器的设计过程，介绍了硬件选择、传感器数据采集与处理、飞行控制系统设计以及实物测试的环节，飞行控制系统分为姿态调节与高度调节，姿态调节采用串级PID控制器，高度调节采用单级PID控制器，二者结合有效的维持了四旋翼飞行器的稳定性与定高性能，最终实现自主起飞、定高、定时飞行等功能。47995

同时，本文还尝试对超声波传感器的探索性能进行改进，改变探测的距离与反射面的材质、几何形状，采样超声波传感器的触发与回波信号，进行对比，比较其中的差别与相似性，总结其中的规律并提出改进思路。

毕业论文关键词  四旋翼飞行器  自主飞行  PID控制器   超声波传感器

毕业设计说明书外文摘要

Title    the implementation and optimization of  autonomous quadrotor                             

Abstract

In recent years, four-rotor unmanned aircraft research has become a new hotspot.

This article describes the process of designing an autonomous quadrotor aircraft, and introduces the selection of hardware, the acquisition and the process of the data, the design of the system to control flight and the way to test its functions, the system to control flight is pided into the attitude adjustment and height adjustment, attitude adjustment uses the cascade PID controller, however the PID controller of the height adjustment uses a single-stage, a combination of both effectively maintain the stability of quadrotor and performance of flying in a fixed height, and ultimately achieves the abilities to takeoff independently, fly in a fixed height during a fixed time, and other functions.

This paper also attempts to explore the possibility of improving the ability of Ultrasonic sensor. We sample the trigger signals and the echo signals of ultrasonic sensor when changing the material and the geometry of the reflecting surface.     Comparing the results and summary the law.

Keywords:  quadrotor    autonomous   pid controller  ultrasonic sensor

目   次

1  引言 1

1.1  研究背景 1

1.2  研究现状及存在问题 2

1.3  论文主要工作 3

1.4  论文组织结构安排 3

2  四旋翼飞行器系统方案 4

2.1  系统总体方案 4

2.2  系统硬件组成 5

2.3  电路结构规划 7

2.4  软件结构方案 7

3  四旋翼飞行器姿态稳定控制 9

3.1  四旋翼飞行姿态数据获取 9

3.2  四旋翼飞行姿态数据处理 9

3.3  四旋翼姿态控制调节 15

4  四旋翼飞行器定高与定时的实现 20

4.1  四旋翼高度信息获取 20

4.2  四旋翼超声波高度传感数据的处理 21

4.3  四旋翼飞行高度控制调节 22

4.4  超声波传感器信号分析 四旋翼自主飞行器的飞控优化与实现:http://www.youerw.com/tongxin/lunwen_50312.html